Germline-specific reprogramming in cloned mice

克隆小鼠种系特异性重编程

• 批准号: 6756431
• 负责人: John R MCCARREY
• 金额: $ 44.2万
• 依托单位: UNIVERSITY OF TEXAS SAN ANTONIO
• 依托单位国家: 美国
• 财政年份: 2002
• 资助国家: 美国
• 起止时间: 2002-06-01 至 2007-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6756431
• 关键词: DNA methylation; alleles; animal breeding; animal puberty; artificial fertilization; cell nucleus; cell type; chromatin; developmental genetics; egg /ovum; embryo /fetus culture; embryogenesis; gametogenesis; gene expression; gene frequency; gene mutation; genetically modified animals; genome; germ cells; laboratory mouse; neurons; newborn animals; nuclear transfer; polymerase chain reaction; sperm

DESCRIPTION (provided by applicant): In both male and female mammals, gametogenesis is a complex process that includes genetic and epigenetic programming mechanisms that prepare the gametic genomes to direct development of an ensuing embryo. When a cloned individual is produced by transfer of a somatic cell nucleus into an enucleated egg, the donor genome has NOT undergone any of the reprogramming processes unique to gametogenesis. Thus the transplanted somatic cell nucleus must respond to signals from the recipient ooplasm directing it to undergo rapid reprogramming to facilitate embryonic development. In recent studies the extent of epigenetic reprogramming in somatic cells of cloned mice has been partially analyzed, and found to be incomplete and highly variable. However, no studies have been carried out to determine the extent to which epigenetic programming is restored in germ cells of cloned mice. Furthermore, there have been no previous studies of genetic programming in any cell type in cloned mice. In this application, we propose a systematic study to compare the extent to which genetic and epigenetic parameters become properly reprogrammed in somatic and germ cells of embryos and offspring produced by cloning via the nuclear transfer (NT) method. Only a small proportion (less than 2-3%) of cloned embryos develop to term, and only a subset of these grow into fertile adults. We hypothesize that while genetic and epigenetic programming is variable and incomplete in somatic cells of cloned mice, it can be largely restored in the germline of these individuals. We further suspect that for a cloned embryo to develop normally, the donor nucleus must undergo rapid preprogramming of epigenetic mechanisms with a low frequency of mutations. Finally, we suspect that nuclei from somatic cells and germ cells differ in their initial states of genetic and epigenetic programming and hence in their ability to successfully direct embryonic development following NT. The results of these experiments will contribute to two general areas of interest. First, they will allow us to better understand how germline-specific mechanisms of genetic and epigenetic reprogramming normally function. Second, they will provide important new insight into the efficacy and safety of mammalian cloning.

描述（由申请人提供）：在雄性和雌性哺乳动物中，配子发生是一个复杂的过程，包括准备配子基因组以指导随后胚胎发育的遗传和表观遗传编程机制。当一个克隆个体是通过将体细胞核转移到去核卵子中产生的，供体基因组没有经历任何配子发生所特有的重编程过程。因此，移植的体细胞核必须对来自受体卵质的信号作出反应，指导其进行快速重编程以促进胚胎发育。在最近的研究中，对克隆小鼠体细胞中表观遗传重编程的程度进行了部分分析，发现其不完整且高度可变。然而，还没有研究确定克隆小鼠生殖细胞中表观遗传编程恢复的程度。此外，以前没有在克隆小鼠的任何细胞类型中进行遗传编程的研究。在此应用中，我们提出了一个系统的研究，以比较在何种程度上遗传和表观遗传参数成为适当的重编程体细胞和生殖细胞的胚胎和后代通过克隆通过核移植（NT）的方法。只有一小部分（不到2-3%）的克隆胚胎发育到足月，其中只有一小部分能长成有生育能力的成年人。我们假设，虽然遗传和表观遗传编程是可变的和不完整的克隆小鼠的体细胞，它可以在很大程度上恢复这些个人的生殖系。我们进一步怀疑，为了使克隆胚胎正常发育，供体细胞核必须经历表观遗传机制的快速预编程，突变频率较低。最后，我们怀疑体细胞和生殖细胞的细胞核在遗传和表观遗传编程的初始状态上不同，因此在NT后成功指导胚胎发育的能力上不同。这些实验的结果将有助于两个感兴趣的一般领域。首先，它们将使我们更好地了解遗传和表观遗传重编程的生殖细胞特异性机制如何正常发挥作用。其次，它们将为哺乳动物克隆的有效性和安全性提供重要的新见解。